Your search keyword '"Jangsun Kim"' showing total 11 results

1. High-Speed THz Time-of-Flight Imaging with Reflective Optics

Author

Hoseong Yoo, Jangsun Kim, and Yeong Hwan Ahn

Subjects

terahertz imaging, nondestructive testing, time-of-flight, Chemical technology, TP1-1185

Abstract

In this study, we develop a 3D THz time-of-flight (TOF) imaging technique by using reflective optics to preserve the high-frequency components from a THz antenna. We use an Fe:InGaAs/InAlAs emitter containing relatively high-frequency components. THz-TOF imaging with asynchronous optical sampling (ASOPS) enables the rapid scanning of 100 Hz/scan with a time delay span of 100 ps. We characterize the transverse resolution using knife edge tests for a focal length of 5; the Rayleigh resolution has been measured at 1.0 mm at the focal plane. Conversely, the longitudinal resolution is determined by the temporal pulse width, confirmed with various gap structures enclosed by a quartz substrate. The phase analysis reveals that reflected waves from the top interface exhibit a phase shift when the gap is filled by high-indexed materials such as water but shows in-phase behavior when it is filled with air and low-indexed material. Our imaging tool was effective for inspecting the packaged chip with high lateral and longitudinal resolution. Importantly, the phase information in 2D and 3D images is shown to be a powerful tool in identifying the defect—in particular, delamination in the chip—which tends to be detrimental to the packaged chip’s stability.

Published

2023

2. A Smart Diaper System Using Bluetooth and Smartphones to Automatically Detect Urination and Volume of Voiding: Prospective Observational Pilot Study in an Acute Care Hospital

Author

Jae Ho Cho, Jung-Yeon Choi, Nak-Hyun Kim, Yejee Lim, Jung Hun Ohn, Eun Sun Kim, Jiwon Ryu, Jangsun Kim, Yiseob Kim, Sun-wook Kim, and Kwang-Il Kim

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Public aspects of medicine, RA1-1270

Abstract

BackgroundCaregivers of patients who wear conventional diapers are required to check for voiding every hour because prolonged wearing of wet diapers causes health problems including diaper dermatitis and urinary tract infections. However, frequent checking is labor intensive and disturbs patients’ and caregivers’ sleep. Furthermore, assessing patients’ urine output with diapers in an acute care setting is difficult. Recently, a smart diaper system with wetness detection technology was developed to solve these issues. ObjectiveWe aimed to evaluate the applicability of the smart diaper system for urinary detection, its accuracy in measuring voiding volume, and its effect on incontinence-associated dermatitis (IAD) occurrence in an acute care hospital. MethodsThis prospective, observational, single-arm pilot study was conducted at a single tertiary hospital. We recruited 35 participants aged ≥50 years who were wearing diapers due to incontinence between August and November 2020. When the smart diaper becomes wet, the smart diaper system notifies the caregiver to change the diaper and measures voiding volume automatically. Caregivers were instructed to record the weight of wet diapers on frequency volume charts (FVCs). We determined the voiding detection rate of the smart diaper system and compared the urine volume as automatically calculated by the smart diaper system with the volume recorded on FVCs. Agreement between the two measurements was estimated using a Bland-Altman plot. We also checked for the occurrence or aggravation of IAD and bed sores. ResultsA total of 30 participants completed the protocol and 390 episodes of urination were recorded. There were 108 records (27.7%) on both the FVCs and the smart diaper system, 258 (66.2%) on the FVCs alone, 18 (4.6%) on the smart diaper system alone, and 6 (1.5%) on the FVCs with sensing device lost. The detection rate of the smart diaper system was 32.8% (126/384). When analyzing records concurrently listed in both the FVCs and the smart diaper system, linear regression showed a strong correlation between the two measurements (R2=0.88, P

Published

2021

3. Nondestructive Tomographic Imaging of Rust with Rapid THz Time-Domain Spectroscopy

Author

Hwan Sik Kim, Seung Yeob Baik, Joong Wook Lee, Jangsun Kim, and Yeong Hwan Ahn

Subjects

terahertz imaging, nondestructive testing, rust, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

In this study, we developed a rapid nondestructive tool for testing rust spread in a metal covered by a paint layer by using a THz time-domain spectroscopy system at a speed of 100 Hz/pixel. Time-of-flight imaging helps identify rust formation by exclusively obtaining the reflection from the steel below the paint surface. The use of frequency-selective imaging allows us to manipulate the contrast in rust imaging. Higher contrast is generally obtained when monitoring using the higher frequency component. In addition, we monitored the spread of rust in a steel plate under the influence of two different chemical solutions: NaCl and acid. We found that in the early stages, the decrease in THz reflection was governed by the high-frequency components due to the formation of lepidocrocite, whereas the low-frequency component develops as the proportion of hematite increases with time.

Published

2021

4. Rapid 3D-Imaging of Semiconductor Chips Using THz Time-of-Flight Technique

Author

Jong Hyuk Yim, Su-yeon Kim, Yiseob Kim, Suyoung Cho, Jangsun Kim, and Yeong Hwan Ahn

Subjects

terahertz imaging, packaged chip, time-of-flight, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

In this study, we developed a rapid three-dimensional (3D) time-of-flight imaging tool for inspection of packaged semiconductor chips, using terahertz (THz) time-domain spectroscopy techniques. A high-speed THz system based on the optical sampling by cavity tuning technique is incorporated with a 2-axis galvano scanner to deliver a scanning speed of more than 100 Hz/pixel with a signal-to-noise ratio larger than 20 dB. Through the use of the Hilbert transformation, we reconstruct the 3D structure of the packaged chip in a nondestructive manner. Additionally, the use of frequency-selective imaging allows us to manipulate image resolution; the higher resolution was obtained when monitored using the higher frequency component. Further, using phase information, we were able to detect and identify defects in the packaged chip, such as the delamination area and epoxy-rich regions.

Published

2021

5. A Smart Diaper System Using Bluetooth and Smartphones to Automatically Detect Urination and Volume of Voiding: Prospective Observational Pilot Study in an Acute Care Hospital (Preprint)

Author

Jae Ho Cho, Jung-Yeon Choi, Nak-Hyun Kim, Yejee Lim, Jung Hun Ohn, Eun Sun Kim, Jiwon Ryu, Jangsun Kim, Yiseob Kim, Sun-wook Kim, and Kwang-Il Kim

Abstract

BACKGROUND Caregivers of patients who wear conventional diapers are required to check for voiding every hour because prolonged wearing of wet diapers causes health problems including diaper dermatitis and urinary tract infections. However, frequent checking is labor intensive and disturbs patients’ and caregivers’ sleep. Furthermore, assessing patients’ urine output with diapers in an acute care setting is difficult. Recently, a smart diaper system with wetness detection technology was developed to solve these issues. OBJECTIVE We aimed to evaluate the applicability of the smart diaper system for urinary detection, its accuracy in measuring voiding volume, and its effect on incontinence-associated dermatitis (IAD) occurrence in an acute care hospital. METHODS This prospective, observational, single-arm pilot study was conducted at a single tertiary hospital. We recruited 35 participants aged ≥50 years who were wearing diapers due to incontinence between August and November 2020. When the smart diaper becomes wet, the smart diaper system notifies the caregiver to change the diaper and measures voiding volume automatically. Caregivers were instructed to record the weight of wet diapers on frequency volume charts (FVCs). We determined the voiding detection rate of the smart diaper system and compared the urine volume as automatically calculated by the smart diaper system with the volume recorded on FVCs. Agreement between the two measurements was estimated using a Bland-Altman plot. We also checked for the occurrence or aggravation of IAD and bed sores. RESULTS A total of 30 participants completed the protocol and 390 episodes of urination were recorded. There were 108 records (27.7%) on both the FVCs and the smart diaper system, 258 (66.2%) on the FVCs alone, 18 (4.6%) on the smart diaper system alone, and 6 (1.5%) on the FVCs with sensing device lost. The detection rate of the smart diaper system was 32.8% (126/384). When analyzing records concurrently listed in both the FVCs and the smart diaper system, linear regression showed a strong correlation between the two measurements (R2=0.88, P CONCLUSIONS The smart diaper system showed acceptable accuracy for measuring urine volume and it could replace conventional FVCs in acute setting hospitals. Furthermore, the smart diaper system has the potential advantage of preventing IAD development and bed sore worsening. However, the detection rate of the smart diaper system was lower than expected. Detection rate polarization among participants was observed, and improvements in the user interface and convenience are needed for older individuals who are unfamiliar with the smart diaper system. CLINICALTRIAL

Published

2021

6. A Smart Diaper System Using Bluetooth and Smartphones to Automatically Detect Urination and Volume of Voiding: Prospective Observational Pilot Study in an Acute Care Hospital

Author

Eun Sun Kim, Jae Ho Cho, Sun Wook Kim, Jung Yeon Choi, Jung Hun Ohn, Jangsun Kim, Jiwon Ryu, Kwang-Il Kim, Yiseob Kim, Yejee Lim, and Nak Hyun Kim

Subjects

Diaper Dermatitis, medicine.medical_specialty, 020205 medical informatics, media_common.quotation_subject, Urination, diaper rash, Pilot Projects, Health Informatics, Urinary incontinence, 02 engineering and technology, smartphone, 03 medical and health sciences, Health problems, 0302 clinical medicine, sensor, Enuresis, Diaper rash, Acute care, smart diaper, 0202 electrical engineering, electronic engineering, information engineering, medicine, Humans, observational, Prospective Studies, 030212 general & internal medicine, app, media_common, Original Paper, mobile phone, urinary incontinence, medical device, business.industry, pilot study, prospective, medicine.disease, humanities, urine, Hospitals, voided volume, mHealth, enuresis, Physical therapy, eHealth, Observational study, medicine.symptom, business

Abstract

Background Caregivers of patients who wear conventional diapers are required to check for voiding every hour because prolonged wearing of wet diapers causes health problems including diaper dermatitis and urinary tract infections. However, frequent checking is labor intensive and disturbs patients’ and caregivers’ sleep. Furthermore, assessing patients’ urine output with diapers in an acute care setting is difficult. Recently, a smart diaper system with wetness detection technology was developed to solve these issues. Objective We aimed to evaluate the applicability of the smart diaper system for urinary detection, its accuracy in measuring voiding volume, and its effect on incontinence-associated dermatitis (IAD) occurrence in an acute care hospital. Methods This prospective, observational, single-arm pilot study was conducted at a single tertiary hospital. We recruited 35 participants aged ≥50 years who were wearing diapers due to incontinence between August and November 2020. When the smart diaper becomes wet, the smart diaper system notifies the caregiver to change the diaper and measures voiding volume automatically. Caregivers were instructed to record the weight of wet diapers on frequency volume charts (FVCs). We determined the voiding detection rate of the smart diaper system and compared the urine volume as automatically calculated by the smart diaper system with the volume recorded on FVCs. Agreement between the two measurements was estimated using a Bland-Altman plot. We also checked for the occurrence or aggravation of IAD and bed sores. Results A total of 30 participants completed the protocol and 390 episodes of urination were recorded. There were 108 records (27.7%) on both the FVCs and the smart diaper system, 258 (66.2%) on the FVCs alone, 18 (4.6%) on the smart diaper system alone, and 6 (1.5%) on the FVCs with sensing device lost. The detection rate of the smart diaper system was 32.8% (126/384). When analyzing records concurrently listed in both the FVCs and the smart diaper system, linear regression showed a strong correlation between the two measurements (R2=0.88, P Conclusions The smart diaper system showed acceptable accuracy for measuring urine volume and it could replace conventional FVCs in acute setting hospitals. Furthermore, the smart diaper system has the potential advantage of preventing IAD development and bed sore worsening. However, the detection rate of the smart diaper system was lower than expected. Detection rate polarization among participants was observed, and improvements in the user interface and convenience are needed for older individuals who are unfamiliar with the smart diaper system.

Published

2021

7. Silk E‐Tattoos: Multifunctional and Ultrathin Electronic Tattoo for On‐Skin Diagnostic and Therapeutic Applications (Adv. Mater. 24/2021)

Author

Sunghwan Kim, Yisub Kim, Suyoung Cho, Jangsun Kim, and Narendar Gogurla

Subjects

Materials science, SILK, Mechanics of Materials, law, Mechanical Engineering, Electronic skin, General Materials Science, Nanotechnology, Carbon nanotube, law.invention

Published

2021

8. Rapid 3D-Imaging of Semiconductor Chips Using THz Time-of-Flight Technique

Author

Yeong Hwan Ahn, Su-yeon Kim, Jong Hyuk Yim, Jangsun Kim, Kim Yiseob, and Cho Suyoung

Subjects

Technology, Scanner, Materials science, QH301-705.5, Terahertz radiation, QC1-999, Phase (waves), 02 engineering and technology, time-of-flight, 01 natural sciences, 010309 optics, terahertz imaging, packaged chip, 0103 physical sciences, General Materials Science, Biology (General), QD1-999, Instrumentation, Image resolution, Fluid Flow and Transfer Processes, Pixel, business.industry, Physics, Process Chemistry and Technology, General Engineering, Engineering (General). Civil engineering (General), 021001 nanoscience & nanotechnology, Chip, Computer Science Applications, Chemistry, Time of flight, Semiconductor, Optoelectronics, TA1-2040, 0210 nano-technology, business

Abstract

In this study, we developed a rapid three-dimensional (3D) time-of-flight imaging tool for inspection of packaged semiconductor chips, using terahertz (THz) time-domain spectroscopy techniques. A high-speed THz system based on the optical sampling by cavity tuning technique is incorporated with a 2-axis galvano scanner to deliver a scanning speed of more than 100 Hz/pixel with a signal-to-noise ratio larger than 20 dB. Through the use of the Hilbert transformation, we reconstruct the 3D structure of the packaged chip in a nondestructive manner. Additionally, the use of frequency-selective imaging allows us to manipulate image resolution, the higher resolution was obtained when monitored using the higher frequency component. Further, using phase information, we were able to detect and identify defects in the packaged chip, such as the delamination area and epoxy-rich regions.

Published

2021

9. The Effects of PNF Upper Extremity Pattern Based Vibration Exercise Equipment on Stability and Balance of the Elderly

Author

Jungdae Im, Jangsun Kim, Gihun Lee, Haneul Youn, Jinwuk Lee, Jiseong Lee, Yeonju Seo, Hyojoeng An, Seoyeon Lee, Jiyoon Son, Hyoungsoo Lee, and Hyunjeong Oh

Subjects

Vibration, medicine.medical_specialty, Exercise program, business.industry, Physical therapy, medicine, Exercise equipment, Dynamic balance, business, Stability (probability), Trunk, Motor assessment, Balance (ability)

Abstract

Purpose : This study examines the effect of vibration exercise grafting PNF patterns for 6 weeks on upper body stability and equilibrium for seniors having fifteen or over of MMSE-K. Method : A total of 10 senior citizens participated in this study. Each participant performed PNF patterned exercises using vibration sports equipment for 30 minutes, once static a week, for six weeks. We measured trunk stability and balance degree before and after the six-week exercise program. Motor Assessment Scale (MAS) was used to measure trunk stability, while Functional Reach Test (FRT) and Timed Up and Go (TUG) was used to measure balance degree. The collected data was processed using paired t-test to confirm the difference between pre-program conditions and post-program conditions. Results: The results of our study show that post-program trunk stability measurements increased when compared to pre-program data; however, this increase was not statistically significant. pre and post-measurements for satatic balance and dynamic balance were statistically unchanged. Conclusion: Due to limitations in the number of participants, the procedural design of this experiment, and the limited amount of time participants actually controlled, this study failed to produce statistically significant results. However, further study should be conducted using a systematically implemented exercise program to show support for exercising with flexi-bar as an effective program for the elderly.

Published

2015

10. The Effects of Combined Exercises of Elastic-Band and Short Foot Exercise on Plantar Foot Pressure, Toe Angle and Balance for Patients with Low to Moderate Hallux Valgus

Author

Jaewon Shin, Yoyun Jang, Minsik Bae, Inseo Park, Honjin Jo, Jiun Lee, Jangsun Kim, Hyoungsoo Lee, Harim Choi, Kunok Choi, and Eunju Kim

Subjects

Orthodontics, Valgus, biology, business.industry, Medicine, Short foot, Foot pressure, business, biology.organism_classification, Toe, Balance (ability)

Published

2015

11. Effects of the Home Exercise Program and Exercise Program of Round Shoulder Adjusting on the Shoulder Height, the Level of Trapezius Muscle Activity and Attention Capacity for Middle School Students

Author

Gwangho Lee, Seonghan Kang, Jangsun Kim, Yunseon Kim, Solbi Kang, Donggyu Jung, Eunji Han, Surim Kim, Soyoung Kim, Hyoungsoo Lee, Raeha Kim, and Mideum Kwon

Subjects

medicine.medical_specialty, education, Significant difference, Prone position, medicine.anatomical_structure, Exercise program, Physical medicine and rehabilitation, Home exercise program, medicine, Physical therapy, Acromion, Psychology, Trapezius muscle, Pre and post, Stroop effect

Abstract

Purpose: The purpose of this study was to investigate the effects of home exercise program and exercise program of round shoulder adjustments on the level of trapezius muscle activity and attention capacity for middle school students. Method: The participants in this study were composed of 21 middle school students. We made the students lie on the floor in prone position, then measured the height of their acromion from the floor. We chose participants for our study whose measurement values were over 2.5cm. We divided them into two groups, one is for the experimental group, and the other is for the control group. The experimental group exercised three days a week for 6 weeks, including home training, and the control group didn`t exercise. We used EMG to measure the trapezius muscle`s activity and used a Stroop test for the measurement of the students` attention capacity. Results: The results of our study are as follows. There was no significant difference between the experimental group and the control group. However, there was a significant difference within the experimental group when comparing pre and post training results for Trapezius muscle activity and attention capacity. Conclusion: We found that correcting round shoulder symptom increases the Trapezius muscle activity and students` attention capacity. Future experiments should investigate with systemical management. Also, we need to increase the frequency of the exercise and participants.

Published

2015